JPH0732021Y2 - Injection mold - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] In the present invention, a cavity is formed between a pair of mold plates, and a resin passage communicating with the cavity through a gate is provided in one mold plate, and The present invention relates to an injection molding die in which a movable rod is arranged in the resin passage so as to be movable in the axial direction, and the tip of the movable rod opens and closes the gate.

[Conventional technology]

Generally, in this type of injection molding die, even if the positional accuracy of the movable rod is slightly deviated, the movable rod comes into contact with the gate and shortens the life of the gate.

Therefore, the present applicant has proposed a new injection molding die described in Japanese Patent Application No. 1-178577. This injection molding die will be described. As shown in FIG. 2, a movable template 2 is provided so as to face the fixed template 1 so as to be openable and closable.
A cavity 3 having a shape of a molded product is formed therebetween.
Inside the fixed mold plate 1, a cylindrical bush 4 is provided.
Is mounted, and a heater 5 and a space 6 for heat insulation are formed around it. A funnel-shaped tip member 8 is screwed to the tip of the bush 4 by a screw portion 7. In the screw portion 7, a detent pin 9 is inserted from the outer peripheral side of the tip member 8 to the bush 4. It is embedded. The tip member 8 is mounted in the recess 10 formed in the fixed mold plate 1, and between the tip member 8 and the recess 10 of the fixed mold plate 1 except the rear end. A predetermined gap 11 is formed. Further, the tip member 8
The heater 12 is attached to the step formed on the outer periphery of the
Further, it is covered with a tubular member 13 fitted to the tip member 8. The heater 12 is integrally connected to the heater 5, and the temperature is controlled by one temperature sensor (thermocouple) 14 mounted in the mounting hole of the bush 4. Furthermore, a resin passage 15 for molten resin is formed inside the bush 4 and the tip member 8, and a support member 16 is mounted inside the tip member 8. The support member 16 has an outer cylinder 17 and an inner cylinder 18 connected by a plurality of support plate portions 19. Also,
A movable rod 20 is arranged in the resin passage 15 so as to be capable of reciprocating along the axis of the resin passage 15. A gate closing portion 23 having a diameter slightly smaller than the opening diameter of the resin injection port (gate) 22 to the cavity 3 formed in the portion. A detent member 24 is provided between the tip member 8 and the support member 16 mounted therein when the gate 22 is angular or has a different shape.

[Problems to be solved by the device]

By the way, in the injection molding die configured as described above, the heaters 5 and 12 are of an external heating type outside the resin passage 15, and the temperature sensor 14 is mounted in the mounting hole of the bush 4. Therefore, the temperature sensor 14 cannot accurately detect the resin temperature of the gate 22 at the tip of the resin passage 15, and there is a problem that the reliability of temperature control is deteriorated.

The present invention has been made in view of the above circumstances, and an object thereof is to be able to detect the resin temperature at the tip of the resin passage more accurately and to perform the temperature control smoothly and reliably. It is to provide an injection molding die capable of

[Means for Solving the Problems]

In order to achieve the above object, the present invention provides a cavity between a pair of mold plates, a bush having a resin passage communicating with the cavity through a gate is provided in one mold plate, and In an injection molding die in which a movable rod is arranged in the passage so as to be movable in the axial direction, and the tip of the movable rod opens and closes the gate, the tip of the movable rod is moved toward the gate at the tip of the bush. A guide tube to be externally fitted to the portion is provided in the center of the resin passage, and a tip member for guiding and supporting the movement of the movable rod is provided, and a heater surrounding the resin passage formed inside is provided at the tip member. There is proposed an injection molding die in which a mounting hole reaching the tip portion is formed inside the movable rod, and a temperature sensor is mounted in the mounting hole.

[Action]

According to the injection mold of the present invention, the movable rod that can be moved toward the gate can be moved only in the axial direction by inserting the tip of the movable rod into the guide tube of the tip member provided at the tip of the bush. Since it is supported, even if the temperature of the bush changes or the resin pressure in the resin passage changes, the tip of the bush is held in a state of being aligned with the axis of the gate.
Since the heater is provided in the tip member so as to surround the resin passage, the heat generated by the operation of the heater is conducted toward the inside of the resin passage to heat and melt the resin in the resin passage. Become.

In this case, in the injection molding die according to the present invention, since the temperature sensor is provided in the mounting hole provided up to the tip inside the movable rod, it is melted by the heater provided outside the resin passage. The temperature of the obtained resin itself at the center of the resin passage near the gate can be accurately detected.

That is, if the heater is arranged around the resin passage and the temperature sensor is arranged inside the movable rod, the temperature sensor can accurately detect the temperature of the resin itself, not the temperature of the heater. The temperature sensor does not protrude into the passage and the smooth flow of the resin in the resin passage is not hindered. When the temperature sensor is arranged inside the movable rod, the temperature of the resin at the center of the resin passage can be detected instead of the position biased in the radial direction inside the resin passage, so that the temperature is transmitted from the surrounding heater. The temperature sensor can be arranged at an extremely rational position to detect the fluctuation of the resin temperature due to heat. Therefore, it is not necessary to provide temperature sensors at a plurality of circumferentially spaced positions, and the structure is extremely simple.

Further, when the temperature sensor is embedded in the movable rod, the strength of the movable rod with respect to fluctuations in the resin pressure will be slightly reduced. However, if a guide tube for supporting the tip portion is provided as in the present invention, , The problem of strength will be solved.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG.
In the present embodiment, parts having the same configurations as those of the conventional example shown in FIG.

A fixed receiving plate 30 is provided outside the bush 4, and a closing member 31 is attached to the upper portion of the bush 4, and the movable rod is provided inside the closing member 31.
20 is provided slidably along its axis. Further, the resin passage 15 communicates with the inside of the manifold 32. A fixed mounting plate 33 is provided at a predetermined distance from the manifold 32.
Inside 33, a hydraulic cylinder 34 is mounted. Furthermore, at the tip of the piston rod 35 of this hydraulic cylinder 34,
A pair of pressing plates 36, 37 are attached, and the base of the movable rod 20 is attached to these pressing plates 36, 37. That is, the movable rod 20 is configured as a long member that extends from the gate 22 provided on the fixed mold plate 1 to the fixed mounting plate 33, but the upper portion of the bush 4 arranged at an intermediate position in the longitudinal direction thereof. It is slidably supported by the closing member 31. Further, inside the movable rod 20, a mounting hole 38 is formed along the axis thereof from the base portion to the vicinity of the distal end portion, and a temperature sensor 39 is mounted in the mounting hole 38. The lead wire 40 of the temperature sensor 39 goes out of the base portion of the movable rod 20, penetrates the inside of the pressing plate 36, and is inserted into the fixed mounting plate 33 while being maintained in a slightly slack state, and is taken out to the outside. ing.

In the injection molding die configured as described above, the movable rod 20 is moved along the axis of the movable rod 20.
The gate 22 is opened and closed by the tip of the.

In this case, the movable rod 20 is the inner cylinder (guide cylinder) of the support member 16.
Since it reciprocates in 18 and its movement is supported and guided by the inner cylinder 18, the gate 22 can be opened and closed smoothly without the tip of the movable rod 20 shaking. Moreover, the movable rod 20
When the tip portion is supported by the inner cylinder 18, both ends of the portion disposed in the resin passage 15 are supported together with the closing member 31, and thus the strength is sufficient against fluctuations in resin pressure. It is possible to maintain.

In such an injection molding die, when the heater 12 of the resin passage 15 is operated, the generated heat is conducted to the resin passage 15 inside through the tip member 8 to heat the resin in the resin passage 15 from the outer periphery. Will be done. In this case, since the temperature sensor 39 is mounted in the mounting hole 38 inside the movable rod 20 arranged in the vicinity of the gate 22 at the center of the resin passage 15, the temperature of the tip portion of the resin passage 15 can be accurately measured. Can be detected. That is, the temperature sensor 39 is
Since it is provided not in the member to which the heater 12 is attached but in the movable rod 20 arranged in the resin passage 15, it is possible to detect the temperature of the molten resin itself, and further, it is provided in the movable rod 20. Since the temperature sensor 39 is arranged at the same distance from any position of the heater 12 provided so as to surround the resin passage 15 in the tip member 8, the heat transfer state from the heater 12 to the resin is determined. Can be detected most effectively and reasonably. Moreover, when the movable rod 20 is arranged at a position that closes the gate 22, the temperature sensor 39 is arranged at a position extremely close to the gate 22, and it is also possible to detect the resin temperature of the gate 22. You can

When the temperature sensor 39 is provided inside the movable rod 20 as described above, it is not necessary to dispose the temperature sensor in the resin passage so as to obstruct the flow of the resin, and the smooth flow of the resin is not disturbed. Absent. Particularly, in the injection molding die of this embodiment, a mounting hole for guiding the lead wire connected to the temperature sensor 39 is provided.
Since the member for providing 38 need only be the movable rod 20, the pressing plate 36, the fixed mounting plate 33, etc., it is not necessary to provide it on a bush having a precise and complicated structure as in the case of guiding the temperature sensor from the outside. It can be quite simple.

Further, when the mounting hole 38 is provided in the movable rod 20, the strength of the movable rod 20 will be lower than that of a solid one, but as in the present embodiment, the distal end portion is formed in the inner cylinder 18. If a structure is adopted in which the blocking member 31 is fitted to prevent shaking and the midway position in the longitudinal direction is supported by the closing member 31, it is possible to solve the problem of strength.

Then, by controlling the heaters 5 and 12 based on the detection value of the temperature sensor 39, the temperature of the molten resin in the resin passage 15 can be smoothly and reliably controlled.
Moreover, the property of the molten resin can be stably maintained,
Good quality products can be molded. Further, the movable rod 20 reciprocates along the axis of the gate 22 for opening and closing the gate 22, and at this time, the reciprocating pressing plates 36, 37.
Since the lead wire 40 of the temperature sensor 39 has a slack between the fixed mounting plate 33 and the fixed mounting plate 33, even if the pressing plates 36 and 37 move, the lead wire 40 has no trouble. ,
The temperature can be detected smoothly.

[Effect of device]

As described above, in the injection molding die according to the present invention, a cavity is formed between a pair of mold plates, and a bush having a resin passage communicating with the cavity through a gate is provided in one mold plate, A movable rod is arranged in the resin passage so as to be movable in the axial direction, and the tip of the movable rod is used to open and close the gate.
A guide cylinder that is externally fitted to the tip of the movable rod that is moved toward the gate is provided in the central portion of the resin passage, and a tip member that guides and supports the movement of the movable rod is provided. A heater surrounding the resin passage formed in the movable rod is provided, a mounting hole reaching the tip is formed inside the movable rod, and a temperature sensor is mounted in this mounting hole. By detecting the temperature of the resin in the resin passage with the temperature sensor, the resin temperature at the tip of the resin passage can be detected more accurately, and the temperature control can be performed smoothly and reliably. The property of the molten resin can be stably maintained, and a product with good quality can be easily formed. In addition, if the movable rod is slidably supported by the guide tube that is fitted onto the tip of the movable rod, the bending strength of the movable rod, which is reduced by providing the mounting hole, is surely compensated, and the practicality is improved. be able to.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention, and FIG. 2 is a sectional view of a conventional injection molding die. 1 ... Fixed mold plate, 2 ... Movable mold plate, 3 ... Cavity, 15 ... Resin passage, 20 ... Movable rod, 22 ... Resin injection port (gate),
38 ... Mounting hole, 39 ... Temperature sensor.

Claims (1)

[Scope of utility model registration request] 1. A cavity is formed between a pair of mold plates, a bush having a resin passage communicating with the cavity through a gate is provided in one mold plate, and the bush moves axially in the resin passage. In an injection molding die in which a movable rod is arranged as much as possible, and the tip of the movable rod opens and closes the gate, a guide which is externally fitted to the tip of the bush is attached to the tip of the bush. A tip member for arranging the cylinder in the central portion of the resin passage and guiding and supporting the movement of the movable rod is provided, and a heater surrounding the resin passage formed inside the tip member is provided, and inside the movable rod. An injection mold, wherein a mounting hole reaching the tip portion is formed, and a temperature sensor is mounted in the mounting hole.